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Robust simulation software for the comprehensive evaluation of protein electrostatics in unfolded state.

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pepkalc

Robust simulation software for the comprehensive evaluation of protein electrostatics in unfolded state.

Protein electrostatics

Protonation is a ubiquitous and important process in biology. Protein folding, ligand recognition, enzyme catalysis, membrane potentials, and the energetics of cells depend on ionization and proton transfer. Charge-charge interactions are of special importance for Intrinsically Disordered Proteins, which are known to contain abnormally high numbers of consecutive charged amino acids. Consequently, a great theoretical effort has been devoted to elucidation of protein electrostatic interactions in unfolded state.

The problem

Polypeptide sequence length is the single dominant factor hampering the effectiveness of currently available software tools for de novo calculation of amino acid-specific protonation constants in disordered polypeptides.

Our solution

pepKalc is robust simulation software for the comprehensive evaluation of protein electrostatics in unfolded state. Our software completely removes the limitations of the previously described Monte-Carlo approaches in the computation of protein electrostatics, by using a hybrid approach that effectively combines exact and mean-field calculations to rapidly obtain accurate results. Paired with a modern architecture CPUs, pepKalc is capable of evaluating protonation behavior for an arbitrary-size polypeptide in a sub-second time regime.

Installation

Clone this repository,

git clone https://github.com/PeptoneInc/pepkalc.git

and install Python dependencies (you will need pip utility for that),

pip install scipy numpy

Usage

Call pepkalc like any other Python script, parsing command-line paramters, e.g.

python pepkalc.py --sequence DDD

will perform pKa and Hill parameter estimations for DDD polypeptide. Amino acid titration curves will be generated by default in root directory _titration.dat. Total charge Total_Q.dat and pH dependence of folding stability Total_G.dat curves will be produced.

Parameters

pepkalc accepts the following input parameters:

--help

Prints out help file in human readable format.

--sequence

One-letter amino acid sequence following FASTA convention. Please use n and c to include N- and C-Terminus in your calculations. Default value nMDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEAc.

--temperature

The temperature in K. Default value 283.15.

--ionicstrength

The ionic strength in M. Default value 0.0.

--epsilon

The dielectric permeability of solvent. Default value 83.83 (assuming aqueous solution).

--gca

Charge distance shift due to side chain. Default value 5.0.

--gcb

The effective residue separation. Default value 7.5.

--cutoff

The cutoff size for explicit interaction energy calculations. Default value 2.

--ncycles

The number of calculation super-cycles. Default value 3.

--nooutput

Disable titration curve output. _titration.dat files will not be written.

--silent

Do not write diagnostic messages to Terminal.

Issues

We are always looking forward to improving pepkalc.

Please file bug reports, issues or suggestions using https://github.com/PeptoneLtd/pepkalc/issues

Should you have questions related to scientific and industrial implications of pepkalc, please contact us at support@peptone.io.

Acknowledgments

Authors thank Alison Lowndes and Carlo Ruiz, (NVIDIA Corporation) for facilitating collaboration and access to DGX-1 supercomputing node.

References

pepkalc is based on ongoing scientific research of Frans A.A. Mulder Laboratory at Aarhus University (Denmark) and Peptone - The Protein Intelligence Company into protein electrostatics in unfolded state and development of numerical methods for biophysical characterization of Intrinsically Disordered Proteins.

Please cite pepkalc as:

pepKalc - scalable and comprehensive calculation of electrostatic interactions in random coil polypeptides. Tamiola K., Scheek R.M., van der Meulen P., and Mulder F.A.A. Bioinformatics 2017 (Submitted).

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